System and methodology for providing shirt collar support

ABSTRACT

Aspects for supporting a turndown shirt collar are disclosed. In a particular aspect, a semi-rigid shapeable device includes a rear region that forms a substantially semi-circle shape having a first and second end. For this particular embodiment, each of a first terminal end and a second terminal end are respectively oriented upwards and inwards relative to the rear region via a first bend at the first end and a second bend at the second end. In another aspect, a method that facilitates forming a shirt collar support is provided, which includes shaping a semi-rigid shapeable device into a substantially semi-circle shape. In a further aspect, a turndown collared shirt is provided, which includes a collar band comprising at least one collar sleeve configured to hold a shaping device.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.13/447,164, filed Apr. 14, 2012, entitled “SYSTEM AND METHODOLOGY FORPROVIDING SHIRT COLLAR SUPPORT,” which is incorporated herein byreference in its entirety.

TECHNICAL FIELD

The subject disclosure generally relates to turndown collared shirts,and more specifically to a system and methodology for providing shirtcollar support.

BACKGROUND

By way of background concerning conventional turndown collared shirts,it is noted that such shirts often undesirably lose collar support. Forinstance, a turndown collared shirt that remains on a store shelf mayquickly lose collar support over time. Indeed, in order to mitigate aloss of such support, manufacturers often package their shirts togetherwith a plastic/cardboard insert wrapped around the collar band. Thissolution, however, is limited to preserving collar support prior topurchase since such inserts are not wearable. Moreover, since theseinserts are not wearable, they are often discarded soon after a shirt ispurchased. As a result, these shirts quickly lose collar support overtime and after repeated use.

To regain collar support after use, shirts may be pressed byprofessional dry cleaners. Such solution can be expensive though, andthe stiffness of a recently pressed collar can quickly wear off duringuse. For example, even a recently pressed shirt collar may undesirablylose its shape and lay flat towards the end of a work day because ofnormal everyday movement, and as perspiration accumulates.

Accordingly, it would be desirable to provide a device and methodologywhich overcomes these limitations. To this end, it should be noted thatthe above-described deficiencies are merely intended to provide anoverview of some problems of conventional systems, and are not intendedto be exhaustive. Other problems with the state of the art andcorresponding benefits of some of the various non-limiting embodimentsmay become further apparent upon review of the following detaileddescription.

SUMMARY

A simplified summary is provided herein to help enable a basic orgeneral understanding of various aspects of exemplary, non-limitingembodiments that follow in the more detailed description and theaccompanying drawings. This summary is not intended, however, as anextensive or exhaustive overview. Instead, the sole purpose of thissummary is to present some concepts related to some exemplarynon-limiting embodiments in a simplified form as a prelude to the moredetailed description of the various embodiments that follow.

In accordance with one or more embodiments and corresponding disclosure,various non-limiting aspects are described in connection with supportinga turndown shirt collar. In one such aspect, a semi-rigid shapeabledevice is disclosed, which includes a rear region configured to form asubstantially semi-circle shape having a first end and a second end. Thesemi-rigid shapeable device also comprises an ends region, whichincludes a first portion extending from the first end to a firstterminal end, and a second portion extending from the second end to asecond terminal end. For this particular embodiment, the first portionforms a first bend at the first end to orient the first terminal endupwards and inwards relative to the rear region, whereas the secondportion forms a second bend at the second end to orient the secondterminal end upwards and inwards relative to the rear region.

In another aspect, a method that facilitates forming a shirt collarsupport is provided. The method includes shaping a semi-rigid shapeabledevice into a substantially semi-circular shape having a first terminalend and a second terminal end. The method further includes bendingopposite ends of the semi-rigid shapeable device to form a first bendproximate to the first terminal end, and a second bend proximate to thesecond terminal end. For this embodiment, the first bend is configuredto orient the first terminal end upwards and inwards relative to a rearregion of the semi-rigid shapeable device, whereas the second bend isconfigured to orient the second terminal end upwards and inwardsrelative to the rear region of the semi-rigid shapeable device.

In a further aspect, a turndown collared shirt is provided, whichincludes a collar band attached to a folded collar. Within suchembodiment, the collar band includes at least one collar sleeveconfigured to hold a shaping device, whereas the folded collar includesa first collar point and a second collar point such that a spread lengthbetween the first collar point and the second collar point variesaccording to a presence of the shaping device within the at least onecollar sleeve.

Other embodiments and various non-limiting examples, scenarios andimplementations are described in more detail below.

BRIEF DESCRIPTION OF THE DRAWINGS

Various non-limiting embodiments are further described with reference tothe accompanying drawings in which:

FIG. 1 illustrates an exemplary turndown collared shirt without a collarsupport apparatus;

FIG. 2 illustrates an exemplary a shaping device coupled to a turndowncollared shirt in accordance with an aspect of the subjectspecification;

FIG. 3 illustrates an exemplary support provided by a shaping device ona turndown collared shirt according to an embodiment;

FIG. 4 illustrates various views of an exemplary collar supportapparatus in accordance with an aspect of the subject specification;

FIG. 5 illustrates an extendable collar support apparatus according toan embodiment;

FIG. 6 illustrates an exemplary turndown collared shirt according to anembodiment;

FIG. 7 illustrates an exemplary turndown collared shirt according toanother embodiment;

FIG. 8 is a flow diagram of an exemplary methodology that facilitatesforming a shirt collar shaping device in accordance with an aspect ofthe subject specification;

FIG. 9 illustrates an exemplary implementation of a dual shaping deviceembodiment inserted into a turndown collar shirt;

FIG. 10 illustrates exemplary pivot points of a dual shaping deviceembodiment;

FIG. 11 is a block diagram representing exemplary non-limiting networkedenvironments in which various embodiments described herein can beimplemented; and

FIG. 12 is a block diagram representing an exemplary non-limitingcomputing system or operating environment in which one or more aspectsof various embodiments described herein can be implemented.

DETAILED DESCRIPTION

As discussed in the background, turndown collared shirts oftenundesirably lose collar support. The various embodiments disclosedherein are directed towards overcoming these limitations via discreteand continuous collar support. For instance, embodiments directedtowards a wearable shirt collar shaping device are disclosed, as well asembodiments encompassing methodologies to facilitate forming suchdevices. Embodiments directed towards a turndown collared shirtconfigured to be coupled with a shaping device are also disclosed.

Turning now to FIG. 1, an exemplary turndown collared shirt without acollar support apparatus is shown. As illustrated, turndown collaredshirt 100 includes collar point 110 and collar point 120, wherein spread130 is defined as the distance between collar point 110 and collar point120. To this end, it should be noted that spread 130 undesirablyincreases as turndown collared shirt 100 loses collar support. Moreover,as turndown collared shirt 100 loses collar support, each of collarpoint 110 and collar point 120 undesirably lay more flat.

To overcome this limitation, a wearable shaping device is contemplated.In FIG. 2, an exemplary configuration of such shaping device is showncoupled to a turndown collared shirt in accordance with an embodiment.As illustrated, shaping device 220 is configured to wrap around collarband 210 of turndown collared shirt 200. Once wrapped around collar band210, shaping device 220 provides discrete and continuous collar supportto turndown collared shirt 200. In FIG. 3, an exemplary illustration ofsuch support is provided. As illustrated, shaping device 320 discretelytucks beneath turndown collar 310 of turndown collared shirt 300 suchthat shaping device 320 is unnoticeable during use. Indeed, in anaspect, shaping device 320 is thus a wearable apparatus configured tocontinuously provide an “invisible” collar support, which preventscollar point 312 and collar point 314 from spreading beyond spread 316.In comparison, it is noted that spread 316 maintained by shaping device320 is desirably shorter than spread 130 illustrated in FIG. 1, whichdoes not include such shaping device.

Referring next to FIG. 4, various views 400, 410, and 420, of anexemplary collar support apparatus are provided. Here, it should beappreciated that contemplated embodiments include, but are not limitedto, a semi-rigid shapeable device configured to firmly maintain itsshape. In a first view 400, such apparatus is shown to include rearregion 401 and ends region 402, wherein rear region 401 is configured toform a substantially semi-circle shape having a first end and a secondend, and wherein ends region 401 includes a first portion extending fromthe first end to first terminal end 404, and a second portion extendingfrom the second end to second terminal end 406. For this particularembodiment, the first portion of ends region 401 forms a first one offront bends 403 at the first end to orient first terminal end 404upwards and inwards relative to rear region 401, whereas the secondportion of ends region 401 forms a second one of front bends 403 at thesecond end to orient second terminal end 406 upwards and inwardsrelative to rear region 401.

In another aspect, it should be noted that rear region 401 may beconfigured to include a squared edge opposite to an open region of thesubstantially semi-circle shape. Such a squared edge may be included tofacilitate shaping the rear portion of a turndown collar to appear newlypressed while worn. Rear bend 407 may also be included so as to providecomfort near the back of a user's neck. Within such embodiment, rearbend 407 is included at a midpoint of the squared edge, and configuredto orient the midpoint upwards relative to opposite halves of thesquared edge.

Additional bends are also contemplated. For instance, intermediate bends409 may be included to raise first terminal end 404 and second terminalend 406 so as to facilitate tucking them more discreetly beneath aturndown collar. For this particular embodiment, rear region 401includes a first side portion extending between the squared edge and thefirst end, wherein the first side portion includes a first one ofintermediate bends 409 at a first intermediate point, and wherein thefirst one of intermediate bends 409 is configured to orient the firstintermediate point downwards relative to opposite sides of the firstside portion. Similarly, on the opposite side, rear region 401 includesa second side portion extending between the squared edge and the secondend, wherein the second side portion includes a second one ofintermediate bends 409 at a second intermediate point, and wherein thesecond one of intermediate bends 409 is configured to orient the secondintermediate point downwards relative to opposite sides of the secondside portion.

In another aspect, it is noted that it may be desirable to prevent theshaping device from slipping while in use. Accordingly, it iscontemplated that a portion of at least one of rear region 401 or endsregion 402 further comprises a non-slip coating. Since it is anticipatedthat the disclosed shaping device will be used with conventionalturndown collar shirts, such non-slip coating can be any of a pluralityof materials that when in contact with the collar band of a turndowncollar shirt creates a coefficient of friction above a slippagethreshold (e.g., rubber, velvet, etc).

Other desirable features may also be included. For instance, in order toaccommodate collars of different sizes, it may be desirable to includeat least one extension point configured to elongate at least one of rearregion 401 or ends region 402. In FIG. 5, an exemplary extendable collarsupport apparatus with such extension point is provided. As illustrated,shaping device 500 may include extension mechanism 510 proximate to rearbend 507. For this particular example, although an accordion-likemechanism is shown, it should be appreciated that extension mechanism510 can be any of a plurality of mechanisms known in the art.Furthermore, although FIG. 5 shows extension mechanism 510 inserted intorear bend 507, it should be appreciated that extension mechanism 510 maybe inserted into any of front bends 503, corner bends 505, intermediatebends 509, and/or rear bend 507. Alternatively, or in addition to, it iscontemplated that extension points may be included in non-bend points,as well.

In another aspect, it is contemplated that including an attachmentmechanism to ends of the disclosed shaping device may also be desirable.For instance, as illustrated in FIG. 5, a first terminal end of shapingdevice 500 may include a first end of attachment mechanism 520, whereasa second terminal end of shaping device 500 may include a second end ofattachment mechanism 520. In a first exemplary embodiment of attachmentmechanism 520, each of the first end of attachment mechanism 520 and thesecond end of attachment mechanism 520 are configured to be attachableto one another (e.g., to facilitate having shaping device 500maintain/regain its shape). In another exemplary embodiment, however,each of the first end of attachment mechanism 520 and the second end ofattachment mechanism 520 are configured to be attachable to a collarstay (e.g., as illustrated in FIG. 7). Furthermore, although attachmentmechanism 520 is shown to be a hook mechanism, it should be appreciatedthat any of a plurality of mechanisms can be implemented including, forexample, a magnetic mechanism.

Embodiments directed towards a turndown collared shirt configured to beused in conjunction with the disclosed shaping device are alsocontemplated. In FIG. 6, for instance, views 600 and 605 of an exemplaryturndown collared shirt are provided according to an embodiment. Asillustrated, a turndown collared shirt is provided, which includescollar band 610 attached to folded collar 620. Within such embodiment,collar band 610 includes at least one collar sleeve 614 configured tohold shaping device 630, as shown. In an aspect, collar sleeve 614 isthus a compartment within collar band 610 that facilitates guidingshaping device 630 into place. Furthermore, it is noted that foldedcollar 620 includes a first collar point and a second collar point suchthat a spread length between the first collar point and the secondcollar point varies according to a presence of shaping device 630 withincollar sleeve 614.

It should be appreciated that collar band 610 may be configured to holdshaping device 630 in various ways. For instance, in a first embodiment,collar band 610 includes insert 612, wherein a first insert point isconfigured to receive a first end of shaping device 630 at a first oneof collar sleeve 614, and wherein collar band 610 further includes asecond insert point configured to receive a second end of shaping device630 at a second one of collar sleeve 614. Within such embodiment, collarsleeve 614 thus includes two sleeves on opposite ends of collar band 610so as to facilitate receiving and removing shaping device 630 via insert612, as shown. In another embodiment, however, rather than includinginsert 612, shaping device 630 is entirely enclosed within a singlecollar sleeve 614.

Furthermore, as stated previously, it may be desirable to preventshaping device 630 from slipping while in use. Accordingly, it iscontemplated that an inner portion of collar sleeve 614 may comprise anon-slip lining. Such non-slip lining can be any of a plurality ofmaterials that when in contact with shaping device 630 creates acoefficient of friction above a slippage threshold (e.g., rubber,velvet, etc).

As also stated previously, it may be desirable to have shaping device630 attach to collar stays. Accordingly, embodiments configured tofacilitate such attachment are disclosed, such as the exemplary turndowncollared shirt provided in FIG. 7. As illustrated, turndown collaredshirt 700 may be configured to receive shaping device 710 via inserts702. Alternatively, rather than including inserts 702, turndown collaredshirt 700 may be configured to include shaping device 710 within asingle collar sleeve, as mentioned previously. Within either embodiment,turndown collared shirt 700 may further include collar stay sleeves 706,as shown, wherein a first one of collar stay sleeves 706 is proximate toa first collar point, and wherein a second one of collar stay sleeves706 is proximate to a second collar point. To facilitate providingshaping device 710 access to collar stays 720, a first one/end of collarband sleeve(s) 708 includes a first one of collar stay access points 704configured to provide access to a first area proximate to a first one ofcollar stay sleeves 706, whereas a second one/end of collar bandsleeve(s) 708 includes a second one of collar stay access points 704configured to provide access to a second area proximate to a second oneof collar stay sleeves 706.

It should be appreciated that any of a plurality of attachmentmechanisms are contemplated for attaching shaping device 710 to collarstays 720. For instance, as illustrated, a hook mechanism may beimplemented, wherein shaping device 710 includes shaping deviceattachment mechanism 712, which is configured to hook onto collar stayattachment mechanism 722. Alternatively, rather than implementing a hookmechanism, a magnetic mechanism can be used, wherein either ends ofshaping device attachment mechanism 712 are configured to have a firstmagnetic polarity, and wherein components of collar stay attachmentmechanism 722 are configured to have an opposite magnetic polarity.

Referring next to FIG. 8, a flow chart illustrating an exemplary methodthat facilitates forming a shirt collar shaping device is provided. Asillustrated, process 800 includes a series of acts that may be performedwithin a computer system according to an aspect of the subjectspecification. For instance, process 800 may be implemented by employinga processor to execute computer executable instructions stored on acomputer readable storage medium to implement the series of acts. Inanother embodiment, a computer-readable storage medium comprising codefor causing at least one computer to implement the acts of process 800is contemplated.

In an aspect, process 800 begins with the shaping of a wire-shapedmaterial at act 810. Here, as stated previously, it is contemplated thatsuch material may be any of a plurality of material types which may bebent and/or formed into a semi-circular shape substantially similar tocollar support apparatus 400. For instance, in one embodiment, a steelwire material may be bent into a substantially semi-circular shape. Inanother embodiment, however, it is contemplated that a plastic materialis molded into a substantially semi-circular shape.

It should be noted that, because any of various collar supportpreferences may be desired, it is contemplated that the shapingperformed at act 810 may vary accordingly. For instance, in a particularembodiment, the shaping at act 810 comprises forming a rear region thatincludes a squared edge opposite to an open region of the substantiallysemi-circular shape. Alternatively, rather than a squared edge, theshaping at act 810 may comprise forming a rear region with a roundededge.

After the shaping performed at act 810, process 800 continues to act 820where bend points for the shirt collar shaping device are selected. Tothis end, it is noted that any of a plurality of bend types may beselected including, for example, any of front bends 403, corner bends405, intermediate bends 409, and/or rear bend 407 illustrated in FIG. 4.

Once the bend types are selected, process 800 proceeds to act 830 wherethe selected bend types are formed. In one embodiment, for example, apair of front bends is formed by bending opposite ends of thewire-shaped apparatus. Within such embodiment, the first front bend isconfigured to orient a first end upwards and inwards relative to a rearregion of the wire-shaped apparatus, whereas the second front bend isconfigured to orient the second end upwards and inwards relative to therear region. Thereafter, the bending may further comprise forming atleast one additional bend.

Since any of various materials may be used, it should be appreciatedthat the forming performed at act 830 may encompass any of a pluralityof forming acts. For instance, if steel material is used, such formingmay comprise bending the wire-shaped apparatus. However, if plasticmaterial is used, bends may be formed by selecting a mold having thedesired bends.

In another aspect, the forming performed at act 830 may further compriseincluding at least one extension mechanism For instance, such extensionmechanism may be an accordion-like mechanism such as extension mechanism510 illustrated in FIG. 5. Within such embodiment, the forming performedat act 830 may include partitioning the wire-shaped apparatus at adesired extension point, and inserting an extension mechanism therein.To this end, although FIG. 5 shows extension mechanism 510 inserted intorear bend 507, it should be appreciated that an extension mechanism maybe inserted into any of front bends 503, corner bends 505, intermediatebends 509, and/or rear bend 507. Alternatively, or in addition to, it iscontemplated that extension points may be included in non-bend points,as well.

After the forming performed at act 830, process 800 proceeds to act 840where a determination of whether to include an attachment mechanism,such as attachment mechanism 520 illustrated in FIG. 5, is made. In anaspect, such attachment mechanism may be configured to serve any of aplurality of purposes. For instance, the attachment mechanism may beconfigured to attach/detach opposing ends of the shirt collar shapingdevice, and/or to attach/detach to collar stays (e.g., as illustrated inFIG. 7). Here, in addition to the hook design illustrated in FIG. 5 andFIG. 7, it should be appreciated that other attachment mechanism designscan be implemented including, for example, a magnetic attachmentmechanism.

If it is determined that an attachment mechanism should indeed beincluded, the desired attachment mechanism is formed at act 845,followed by a determination of whether to coat the shirt collar shapingdevice with a non-slip substance at act 850. Otherwise, if an attachmentmechanism is not desired, process 800 proceeds directly to act 850. If acoating is desired, the shirt collar shaping device is coated at act855, followed by a packaging of the shirt collar shaping device at act860. Otherwise, if a coating is not desired, process 800 proceedsdirectly to act 860. Here, it should be noted that the packagingperformed at act 860 may include packaging the shirt collar shapingdevice in any of various ways. For instance, the shaping device can bepackaged by itself, together with a turndown collared shirt, and/ortogether with collar stays.

In another aspect, rather than having a single shaping device wraparound the rear of a user's neck, a dual device embodiment is alsocontemplated. In FIG. 9, an exemplary implementation of such dual deviceembodiment is provided. For this particular embodiment, shaping devices910 respectively include a first end configured to be inserted intocollar band sleeve(s) 902 via collar band access points 904, and asecond end configured to be inserted into collar stay sleeves 906. Here,it is contemplated that each of shaping devices 910 are semi-rigiddevices configured to keep their form over time similar to theaforementioned semi-circular devices. During use, shaping devices 910thus separately provide collar support to each collar point of turndowncollar shirt 900.

It should be noted that alternative embodiments are also contemplated inwhich shaping devices 910 are configured to attach to the single shapingdevice design described herein (e.g., via attachment mechanism 520 ofshaping device 500). In yet another embodiment, rather than implementingan attach/detach design, a modified single shaping device design iscontemplated in which the ends of the aforementioned single shapingdevice design are extended/modified to be substantially similar toshaping devices 910.

Referring next to FIG. 10, a perspective view of an exemplary dualshaping device embodiment is provided. As illustrated, similar toshaping devices 910, shaping devices 1000 respectively include a firstend configured to be inserted into a collar band sleeve, and a secondend configured to be inserted into a collar stay sleeve. In a particularaspect, since it is contemplated that shaping devices 1000 are made ofmalleable semi-rigid material, pivot points 1002 may be included tofacilitate pivoting the respective ends of shaping devices 1000, asdesired. When inserting shaping devices 1000, for example, a user maybegin by inserting a first end into a collar band sleeve, and thenvertically extending the other end to facilitate inserting this otherend into a collar stay sleeve. Indeed, once a first end of shapingdevice 1000 is inserted into a collar band sleeve, inserting the otherend into the corresponding collar stay sleeve may be easier if theturndown collar is turned up. A user may then bend pivot point 1002upwards so that the collar stay sleeve end extends vertically, whichfacilitates inserting this end into the collar stay sleeve while theturndown collar is turned up. Once both ends of shaping device 1000 areinserted, the user may then bend pivot point 1002 in the oppositedirection so that turndown collar is turned back down. Here, since it iscontemplated that shaping device 1000 can be made of any malleablematerial configured to keep its form over time, it should be noted thatpivot point 1002 can be configured to facilitate raising/loweringturndown collars into fixed positions, as desired.

Exemplary Networked and Distributed Environments

One of ordinary skill in the art can appreciate that various embodimentsfor implementing the use of a computing device and related embodimentsdescribed herein can be implemented in connection with any computer orother client or server device, which can be deployed as part of acomputer network or in a distributed computing environment, and can beconnected to any kind of data store. Moreover, one of ordinary skill inthe art will appreciate that such embodiments can be implemented in anycomputer system or environment having any number of memory or storageunits, and any number of applications and processes occurring across anynumber of storage units. This includes, but is not limited to, anenvironment with server computers and client computers deployed in anetwork environment or a distributed computing environment, havingremote or local storage.

FIG. 11 provides a non-limiting schematic diagram of an exemplarynetworked or distributed computing environment. The distributedcomputing environment comprises computing objects or devices 1110, 1112,etc. and computing objects or devices 1120, 1122, 1124, 1126, 1128,etc., which may include programs, methods, data stores, programmablelogic, etc., as represented by applications 1130, 1132, 1134, 1136,1138. It can be appreciated that computing objects or devices 1110,1112, etc. and computing objects or devices 1120, 1122, 1124, 1126,1128, etc. may comprise different devices, such as PDAs (personaldigital assistants), audio/video devices, mobile phones, MP3 players,laptops, etc.

Each computing object or device 1110, 1112, etc. and computing objectsor devices 1120, 1122, 1124, 1126, 1128, etc. can communicate with oneor more other computing objects or devices 1110, 1112, etc. andcomputing objects or devices 1120, 1122, 1124, 1126, 1128, etc. by wayof the communications network 1140, either directly or indirectly. Eventhough illustrated as a single element in FIG. 11, network 1140 maycomprise other computing objects and computing devices that provideservices to the system of FIG. 11, and/or may represent multipleinterconnected networks, which are not shown. Each computing object ordevice 1110, 1112, etc. or 1120, 1122, 1124, 1126, 1128, etc. can alsocontain an application, such as applications 1130, 1132, 1134, 1136,1138, that might make use of an API (application programming interface),or other object, software, firmware and/or hardware, suitable forcommunication with or implementation of various embodiments.

There are a variety of systems, components, and network configurationsthat support distributed computing environments. For example, computingsystems can be connected together by wired or wireless systems, by localnetworks or widely distributed networks. Currently, many networks arecoupled to the Internet, which provides an infrastructure for widelydistributed computing and encompasses many different networks, thoughany network infrastructure can be used for exemplary communications madeincident to the techniques as described in various embodiments.

Thus, a host of network topologies and network infrastructures, such asclient/server, peer-to-peer, or hybrid architectures, can be utilized.In a client/server architecture, particularly a networked system, aclient is usually a computer that accesses shared network resourcesprovided by another computer, e.g., a server. In the illustration ofFIG. 11, as a non-limiting example, computing objects or devices 1120,1122, 1124, 1126, 1128, etc. can be thought of as clients and computingobjects or devices 1110, 1112, etc. can be thought of as servers wherecomputing objects or devices 1110, 1112, etc. provide data services,such as receiving data from computing objects or devices 1120, 1122,1124, 1126, 1128, etc., storing of data, processing of data,transmitting data to computing objects or devices 1120, 1122, 1124,1126, 1128, etc., although any computer can be considered a client, aserver, or both, depending on the circumstances. Any of these computingdevices may be processing data, or requesting services or tasks that mayimplicate various embodiments and related techniques as describedherein.

A server is typically a remote computer system accessible over a remoteor local network, such as the Internet or wireless networkinfrastructures. The client process may be active in a first computersystem, and the server process may be active in a second computersystem, communicating with one another over a communications medium,thus providing distributed functionality and allowing multiple clientsto take advantage of the information-gathering capabilities of theserver. Any software objects utilized pursuant to the user profiling canbe provided standalone, or distributed across multiple computing devicesor objects.

In a network environment in which the communications network/bus 1140 isthe Internet, for example, the computing objects or devices 1110, 1112,etc. can be Web servers with which the computing objects or devices1120, 1122, 1124, 1126, 1128, etc. communicate via any of a number ofknown protocols, such as HTTP. As mentioned, computing objects ordevices 1110, 1112, etc. may also serve as computing objects or devices1120, 1122, 1124, 1126, 1128, etc., or vice versa, as may becharacteristic of a distributed computing environment.

Exemplary Computing Device

As mentioned, several of the aforementioned embodiments apply to anydevice wherein it may be desirable to utilize a computing deviceaccording to the aspects disclosed herein. It is understood, therefore,that handheld, portable and other computing devices and computingobjects of all kinds are contemplated for use in connection with thevarious embodiments described herein. Accordingly, the below generalpurpose remote computer described below in FIG. 12 is but one example,and the embodiments of the subject disclosure may be implemented withany client having network/bus interoperability and interaction.

Although not required, any of the embodiments can partly be implementedvia an operating system, for use by a developer of services for a deviceor object, and/or included within application software that operates inconnection with the operable component(s). Software may be described inthe general context of computer executable instructions, such as programmodules, being executed by one or more computers, such as clientworkstations, servers or other devices. Those skilled in the art willappreciate that network interactions may be practiced with a variety ofcomputer system configurations and protocols.

FIG. 12 thus illustrates an example of a suitable computing systemenvironment 1200 in which one or more of the embodiments may beimplemented, although as made clear above, the computing systemenvironment 1200 is only one example of a suitable computing environmentand is not intended to suggest any limitation as to the scope of use orfunctionality of any of the embodiments. The computing environment 1200is not to be interpreted as having any dependency or requirementrelating to any one or combination of components illustrated in theexemplary operating environment 1200.

With reference to FIG. 12, an exemplary remote device for implementingone or more embodiments herein can include a general purpose computingdevice in the form of a handheld computer 1210. Components of handheldcomputer 1210 may include, but are not limited to, a processing unit1220, a system memory 1230, and a system bus 1221 that couples varioussystem components including the system memory to the processing unit1220.

Computer 1210 typically includes a variety of computer readable mediaand can be any available media that can be accessed by computer 1210.The system memory 1230 may include computer storage media in the form ofvolatile and/or nonvolatile memory such as read only memory (ROM) and/orrandom access memory (RAM). By way of example, and not limitation,memory 1230 may also include an operating system, application programs,other program modules, and program data.

A user may enter commands and information into the computer 1210 throughinput devices 1240 A monitor or other type of display device is alsoconnected to the system bus 1221 via an interface, such as outputinterface 1250. In addition to a monitor, computers may also includeother peripheral output devices such as speakers and a printer, whichmay be connected through output interface 1250.

The computer 1210 may operate in a networked or distributed environmentusing logical connections to one or more other remote computers, such asremote computer 1270. The remote computer 1270 may be a personalcomputer, a server, a router, a network PC, a peer device or othercommon network node, or any other remote media consumption ortransmission device, and may include any or all of the elementsdescribed above relative to the computer 1210. The logical connectionsdepicted in FIG. 12 include a network 1271, such local area network(LAN) or a wide area network (WAN), but may also include othernetworks/buses. Such networking environments are commonplace in homes,offices, enterprise-wide computer networks, intranets and the Internet.

As mentioned above, while exemplary embodiments have been described inconnection with various computing devices and networks, the underlyingconcepts may be applied to any network system and any computing deviceor system in which it is desirable to publish, build applications for orconsume data in connection with the aspects described herein.

The word “exemplary” is used herein to mean serving as an example,instance, or illustration. For the avoidance of doubt, the subjectmatter disclosed herein is not limited by such examples. In addition,any aspect or design described herein as “exemplary” is not necessarilyto be construed as preferred or advantageous over other aspects ordesigns, nor is it meant to preclude equivalent exemplary structures andtechniques known to those of ordinary skill in the art. Furthermore, tothe extent that the terms “includes,” “has,” “contains,” and othersimilar words are used in either the detailed description or the claims,for the avoidance of doubt, such terms are intended to be inclusive in amanner similar to the term “comprising” as an open transition wordwithout precluding any additional or other elements.

As mentioned, the various techniques described herein may be implementedin connection with hardware or software or, where appropriate, with acombination of both. As used herein, the terms “component,” “system” andthe like are likewise intended to refer to a computer-related entity,either hardware, a combination of hardware and software, software, orsoftware in execution. For example, a component may be, but is notlimited to being, a process running on a processor, a processor, anobject, an executable, a thread of execution, a program, and/or acomputer. By way of illustration, both an application running oncomputer and the computer can be a component. One or more components mayreside within a process and/or thread of execution and a component maybe localized on one computer and/or distributed between two or morecomputers.

The aforementioned systems have been described with respect tointeraction between several components. It can be appreciated that suchsystems and components can include those components or specifiedsub-components, some of the specified components or sub-components,and/or additional components, and according to various permutations andcombinations of the foregoing. Sub-components can also be implemented ascomponents communicatively coupled to other components rather thanincluded within parent components (hierarchical). Additionally, it isnoted that one or more components may be combined into a singlecomponent providing aggregate functionality or divided into severalseparate sub-components, and any one or more middle layers, such as amanagement layer, may be provided to communicatively couple to suchsub-components in order to provide integrated functionality. Anycomponents described herein may also interact with one or more othercomponents not specifically described herein but generally known bythose of skill in the art.

In view of the exemplary systems described supra, methodologies that maybe implemented in accordance with the disclosed subject matter can beappreciated with reference to the various figures. While for purposes ofsimplicity of explanation, some of the methodologies are shown anddescribed as a series of blocks, it is to be understood and appreciatedthat the claimed subject matter is not limited by the order of theblocks, as some blocks may occur in different orders and/or concurrentlywith other blocks from what is depicted and described herein. Wherenon-sequential, or branched, flow is illustrated via flowchart, it canbe appreciated that various other branches, flow paths, and orders ofthe blocks, may be implemented which achieve the same or a similarresult. Moreover, not all illustrated blocks may be required toimplement the methodologies described hereinafter.

While in some embodiments, a client side perspective may be inferred, itis to be understood for the avoidance of doubt that a correspondingserver perspective exists, or vice versa. Similarly, where a method ispracticed, a corresponding device can be provided having storage and atleast one processor configured to practice that method via one or morecomponents.

While the various embodiments have been described in connection with theembodiments of the various figures, it is to be understood that othersimilar embodiments may be used or modifications and additions may bemade to the described embodiment for performing the same functionwithout deviating there from. Still further, one or more aspects of theabove described embodiments may be implemented in or across a pluralityof processing chips or devices, and storage may similarly be affectedacross a plurality of devices. Therefore, the present invention shouldnot be limited to any single embodiment, but rather should be construedin breadth and scope in accordance with the appended claims.

What is claimed is:
 1. A semi-rigid shapeable device, comprising: a rearregion, wherein the rear region is wire-shaped and configured to form asingle substantially semi-circle shape having a first end and a secondend; and an ends region, wherein the ends region includes: a firstwire-shaped portion extending from the first end to a first terminalend; and a second wire-shaped portion extending from the second end to asecond terminal end, wherein the single substantially semi-circle shapeof the rear region is configured to provide a single opening directedtowards the ends region.
 2. The semi-rigid shapeable device according toclaim 1, wherein the rear region includes a squared edge opposite to thesingle opening.
 3. The semi-rigid shapeable device according to claim 2,further comprising a rear bend at a midpoint of the squared edge,wherein the rear bend is configured to orient the midpoint upwardsrelative to opposite halves of the squared edge.
 4. The semi-rigidshapeable device according to claim 2, wherein the rear regioncomprises: a first side portion extending between the squared edge andthe first end, wherein the first side portion includes a firstintermediate bend at a first intermediate point, and wherein the firstintermediate bend is configured to orient the first intermediate pointdownwards relative to opposite sides of the first side portion; and asecond side portion extending between the squared edge and the secondend, wherein the second side portion includes a second intermediate bendat a second intermediate point, and wherein the second intermediate bendis configured to orient the second intermediate point downwards relativeto opposite sides of the second side portion.
 5. The semi-rigidshapeable device according to claim 1, wherein a portion of at least oneof the rear region or the ends region further comprises a non-slipcoating.
 6. The semi-rigid shapeable device according to claim 1,further comprising at least one extension point configured to elongateat least one of the rear region or the ends region.
 7. The semi-rigidshapeable device according to claim 1, wherein the first terminal endcomprises a first attachment mechanism, and wherein the second terminalend comprises a second attachment mechanism.
 8. The semi-rigid shapeabledevice according to claim 7, wherein each of the first attachmentmechanism and the second attachment mechanism are configured to beattachable to one another.
 9. The semi-rigid shapeable device accordingto claim 7, wherein each of the first attachment mechanism and thesecond attachment mechanism are configured to be attachable to a collarstay.
 10. The semi-rigid shapeable device according to claim 7, whereineach of the first attachment mechanism and the second attachmentmechanism are at least one of a hook mechanism or a magnetic mechanism.11. The semi-rigid shapeable device according to claim 1, wherein thefirst wire-shaped portion includes a first bend at the first endconfigured to orient the first terminal end upwards and inwards relativeto the rear region, and wherein the second wire-shaped portion includesa second bend at the second end configured to orient the second terminalend upwards and inwards relative to the rear region